Battery powered vegetation trimmer

ABSTRACT

A hand held battery powered vegetation trimmer, comprising a battery pack ( 4 ), which powers an electric motor ( 12 ) to generate a rotary output ( 22 ) and a cutting line ( 30 ) which is adapted to be rotatably driven by a line support structure ( 28 ). By introducing a reduction gear stage ( 24 ) between the motor output ( 22 ) and the line support structure ( 28 ) the speed at which the line ( 30 ) is rotated is reduced which substantially reduces the power consumption of the trimmer without reducing the cutting performance of the line.

This application is a continuation Ser. No. 08/965,122 filed on Nov. 6, 1997 now U.S. Pat. No. 6,014,812.

TECHNICAL FIELD

The present invention relates to a battery powered vegetation trimmer of the type in which a rotating line, string or wire (hereafter referred to as line) is used to cut vegetation, particularly grass.

BACKGROUND OF THE INVENTION

In known battery powered vegetation trimmers of this type, a battery pack powers an electric motor. A rotary output of the electric motor directly drives a line support structure in a rotatable manner. The line is supported by the line support structure so that an end section of the line extends from the structure. As the structure rotates, the end section of the line is rotated and will cut any light vegetation or grass which comes into the path of the line.

A vegetation trimmer is designed so that the weight of the trimmer is supported by the user. The height, orientation and direction of movement of the cutting head of the trimmer, when in use, is determined by the way in which the user holds and moves the trimmer. As a vegetation trimmer has to be supported by the user, it is important to keep the weight-of the trimmer to a minimum. This is achieved by minimising the weight of the various component parts of the vegetation trimmer, for example, the weight of the battery or motor.

A problem with known battery powered vegetation trimmers is achieving an acceptable run time before the battery requires recharging. In order to achieve acceptable run times large (and thus heavy) batteries or relatively expensive batteries have to be used, neither of which are ideal. Therefore, when designing a battery powered vegetation trimmer, there is always a balance between run time and either weight or expense.

One way of overcoming this problem is to use two interchangeable batteries to power a vegetation trimmer. When one of the batteries becomes discharged through use on the trimmer it is replaced by a second battery, which itself can be replaced by a third battery or by the first battery which is recharged while the second is in use. The disadvantage to this solution is that at least two batteries must be purchased by a user, which adds cost. Also, replacement of the batteries interrupts the use of the trimmer.

SUMMARY OF THE INVENTION

The present invention overcomes the above problems by providing a battery powered vegetation trimmer which provides acceptable run times without requiring either expensive, heavy or multiple batteries.

According to the present invention there is provided a hand held battery powered vegetation trimmer which in use is substantially supported by a user above the ground in a cutting position, the trimmer comprising;

a battery pack which powers an electric motor to generate a rotary output, and

a cutting line which is adapted to be rotatably driven by a line support structure,

characterised in that;

the rotary output drives the line support structure via a reduction gear stage.

By introducing a reduction gear stage between the motor output and the line support structure the speed at which the line is rotated is reduced which substantially reduces the power consumption of the trimmer without reducing the cutting performance of the line. This is a surprising result as cutting performance would be expected to drop as the speed of rotation of the line is reduced. Power consumption is reduced by such an extent by using a reduction gear stage that a less powerful motor may be used in the trimmer and still give an acceptable cutting performance. Use of such a motor will reduce the size, weight and cost of the vegetation trimmer. Ideally, the weight of the motor is less than 1 kg and preferably less than 0.5 Kg. This enables the size and weight of the trimmer to be kept within reasonable proportions in order for the users to support and operate the trimmer.

The large reductions in power consumption are achieved mainly by a reduction in the aerodynamic energy losses because of the reduction in the speed of rotation of the line.

As a further added advantage the increased torque with which the line support structure rotates the line, because of the use of a reduction gear stage, allows the trimmer to cope in difficult cutting conditions. The trimmer according to the present invention does not slow down so much when cutting tough or heavy vegetation and is more difficult to stall.

Preferably, the reduction ratio is between a 2:1 reduction and a 4:1 reduction. This range of reduction ratios gives a good reduction in power consumption while not reducing the line speed so much that cutting performance of the line is effected. More preferably, the reduction ratio is between 2.5:1 and 3:1.

The gear reduction stage ideally comprises a pair of intermeshing gears. Such gear arrangements include but are not limited to epicyclic, parallel axis and bevel gear arrangements. Alternatively, the gear reduction stage may comprise a belt drive arrangement.

Good cutting performance at low power consumption can be achieved when the speed of rotation of the line support structure is preferably between 5,000 and 9000 rpm or more preferably between 6,000 and 9000 rpm, or ideally between 7,000 and 8,500 rpm when there is no cutting load on the trimmer.

When a reduction gear stage is used between the motor and the line support structure, as compared to an equivalent trimmer in which the line support structure is directly driven by the motor, the motor will run much faster. This results in the kinetic energy of the motor being much higher and thus the total mechanical energy of the system available to cut is higher which increases the stall torque and makes the trimmer harder to stall. Thus, the speed of rotation of the motor when there is no cutting load on the trimmer is preferably between 10,000 rpm and 28,000 rpm or more preferably between 13,000 and 28,000 rpm and ideally between 19,000 and 23,000 rpm.

The batteries used in the trimmer may be Nickel/Cadmium batteries which are robust, have a high discharge current capability, have a longer life and a low weight. Alternatively, Lead/Acid batteries may be used as they are cheap and provide a good improvement in trimmer run time for reductions in power consumption in the ranges achieved by the introduction of a gear reduction stage on a direct drive cordless vegetation line trimmer.

The vegetation trimmer may be arranged with a handle portion located at a first end of a support tube and a cutting head, which houses the line support structure, located at a second opposite end of the support tube. The battery pack may be releasably attachable to the handle portion in order to allow charging of the battery with the battery either attached to the trimmer (on-board charging) or detached from the trimmer (off-board charging). The electric motor is housed in the cutting head and drives the line support structure also located in the cutting head via the reduction gear stage.

The battery powered vegetation trimmer may have a support guide. The support guide can take the form of a skid bar or wheel located at the back of the cutting head of the trimmer. It can assist the user in directing and positioning the cutting head of the trimmer when carrying out certain tasks such as edging.

The battery powered vegetation trimmer may have a 30.5 cm (12 inches) cutting swathe. The power required to drive the cutting line of a string trimmer is dependent on the length of the line which extends from the line support structure. The introduction of a reduction gear stage between the motor output and the line support structure reduces the power consumption of the string trimmer whilst increasing the torque by which the line support structure rotates the line. Therefore, by using a gear reduction stage, it is possible to have a battery powered string trimmer which has a cutting line which extends further from the line support structure and hence has a larger cutting swathe, than it is possible with battery powered string trimmers without a gear reduction stage whilst still having an acceptable cutting performance. By having a larger cutting swathe, the string trimmer is able to cut a larger area in each sweep.

BRIEF DESCRIPTION OF THE DRAWING FIGURES

The various advantages of the present invention will become apparent to one skilled in the art by reading the following specification and subjoined claims and by referencing the following drawings in which:

FIG. 1 is a side cross sectional view of a cordless vegetation trimmer in accordance with a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a cutting head having a guide structure, in accordance with an alternative preferred embodiment of the present invention;

FIG. 2A is a partial cross-sectional view of a bevelled gear arrangement for driving the line support structure; and

FIG. 2B is a partial cross-sectional view of a belt drive arrangement for driving the line support structure.

The present invention will now be described with reference to the accompanying Figure which shows a longitudinal cross-section of a cordless vegetation trimmer according to the present invention.

The trimmer shown in the Figure has a handle portion (2) to which is clipped a battery pack (4) incorporating a battery (6). The battery is connected to a plug (8) which, when the battery pack is clipped to the handle is received in a socket (10) and electrically connects therewith. The battery is connected to leads (11) via a switch (13) operable by depressing the lever (15) against the action of a spring (not shown). The leads (11) extend from the socket to carry electrical current from the battery (6) to the motor (12) through a length of tube (14). The handle (2) is secured to one end of the length of tube by fastenings (16) and a cutting head (18) is secured to the other end of the length of tube by fastenings (20). The motor (12) is supported in the cutting head (18) by brackets. The pinion (22) from the motor meshes with a gear wheel (24) to rotatably drive the gear. The gear (24) is non-rotatably mounted on a spindle (26) which thus rotates with the gear. The spindle (26) rotatably drives a line support structure (28) at a lower speed of rotation than the speed of rotation of the motor (12) and pinion (22) because of the gear reduction stage, i.e. gear wheel (24) between the motor and the line support structure (28). The line support structure (28) is of conventional construction and houses a spool which carries a length of line. An end portion of the line (30) extends from a hole in the line support structure. The length of the line (30) which extends from the hole is such to provide a 30.5 cm cutting swathe. However, the length of the line can be varied to suit the particular application.

FIG. 2 shows a side view of a cutting head (18) similar to that disclosed in FIG. 1 further having a guide structure attached to its underside. The guide structure comprises a ‘U’ shaped metal rod (31) which has its ends bent at 90° to the plane of the ‘U’ and which connects towards the rear of the underside of the cutting head (18).

The guide structure (31) provides assistance to the guidance of the cutting head by the user when in use. The guide structure can help the user maintain the cutting head (18) and hence the cutting line (30) at a constant height above the ground when in use. The front of the guide structure can be used to help the user guide the cutting head (18) over the ground when the trimmer is being used as an edger, i.e. the cutting head is orientated so that the axis of rotation of the line support structure, when in use, is horizontal.

When the battery pack (4) is clipped to the handle (2) of the trimmer and the switch lever (15) is depressed, electrical current flows from the battery via the closed switch (13) and leads (11) to actuate the motor (12). Actuation of the motor causes the pinion (22) to rotate and the pinion rotatably drives the spindle (26) via gear wheel (24) at a lower speed of rotation. The line support structure (28) is fixed to and thus rotates with the spindle (26) to rotate the end section of line (30).

The motor (12) weighs 0.2 Kg. This enables the overall weight of the trimmer to be kept at a reasonable level to enable a user to easily operate the trimmer. The type of motor (12) used is that of a permanent magnet DC electric motor.

The rotating line will cut vegetation. When the line becomes worn a further length of line can be fed from the line support structure in a known manner either manually or by tapping the trimmer on the floor to depress a button to release a length of line (so called bump feed) or automatically (so called auto feed).

The gear reduction stage can comprise epicyclic, parallel axis, bevel or belt drive gear arrangement. A bevel gear arrangement is shown in FIG. 2A, with the pinion 22′ meshingly engaging a bevelled gear wheel 24′. FIG. 2B shows a pinion 22″ coupled via a drive belt 23 to a gear wheel 24″. However, whatever the type of gear arrangement used, the effect of using a gear reduction stage, on the power consumption of a battery powered vegetation trimmer is made clear by the following examples.

Rotation of a line support structure with a section of line extending therefrom to give a 9 inch swath at a no load speed of 10,000 RPM (which speed is typical of line support structures that are driven directly by the motor) gives a power consumption of 117 Watts. Rotation of the same line support structure with the same section of line extending therefrom at a no load speed of 7,000 RPM (via a reduction gear stage) gives a power consumption of 50 Watts.

Some further results are shown in Table 1.

For a conventional direct drive cordless vegetation line trimmer with a 9 inch diameter of cut (swath) which uses a 12 Volt nickel cadmium battery, the rpm of the cutting line (and of course the motor) with no load on the trimmer (i.e. trimmer not cutting) was measured at 10,500 rpm and the power drain from the battery was 100 Watts. With a 2.5:1 gear reduction stage added between the motor and the line support structure the motor rpm (no load) increases to 21,250, the no load rpm of the cutting line (the same as the no load rpm of the line support structure) decreases to 8,500 and the power consumption is reduced by 50% to 50 Watts.

Results are also shown in Table 1 for a 10 inch diameter of cut conventional direct drive vegetation line trimmer powered by 12 volt lead acid batteries which is modified by adding a 2.5:1 reduction gear stage and a 12 inch diameter of cut conventional direct drive vegetation line trimmer powered by 12 volt lead acid batteries which is modified by adding a 3:1 reduction gear stage.

In every example shown in Table 1 the motor rpm (no load) increases by at least 100%, the cutter rpm (no load) decreases by between approximately 15% and 30% and the power drain from the battery decreases by at least 50%.

This reduction in power consumption can enable:

a. An extension in run time if the battery remains unchanged. In the examples in Table 1, run time increased by up to 160%.

b. Use of a smaller, lighter and cheaper battery if run time remains unchanged.

c. Use of a less powerful motor which can be smaller, lighter and cheaper.

TABLE 1 NO LOAD RUN CUTTER GEAR MOTOR UNIT SWATH POWER BATTERY TIME RPM RATIO RPM CONVENTIONAL  9″ 100 Watts 12V 1.3Ah NiCad 10 MINS 10,500 10,500 DIRECT DRIVE GEARBOX DRIVE  9″  50 Watts 12V 1.3Ah NiCad 19 MINS 8,500 2.5:1 21,250 CONVENTIONAL 10″ 130 Watts 12Volt Lead Acid 7.2Ah 25 MINS 10,000 10,000 DIRECT DRIVE GEARBOX DRIVE 10″  64 Watts 12Volt Lead Acid 7.2Ah 55 MINS 8,000 2.5:1 20,000 CONVENTIONAL 12″ 182 Watts 12Volt Lead Acid 7.2Ah 17 MINS 9,500 9,500 DIRECT DRIVE GEARBOX DRIVE 12″  78 Watts 12Volt Lead Acid 7.2Ah 46 MINS 7,000   3:1 21,000 

What is claimed is:
 1. A hand held battery powered vegetation trimmer supportable in use by a user above a ground surface in a cutting position, the trimmer comprising: a handle portion for enabling the trimmer to be supported above the ground surface by one hand of a user; a battery pack which powers an electric motor to generate a rotary output, and a cutting line disposed on a cutting head, wherein the cutting line is adapted to be rotatably driven by a line support structure; and wherein the rotary output drives the line support structure via a reduction gear stage; and wherein the reduction gear stage reduces a rotational speed of the cutting line to no more than about 9,000 rpm.
 2. A hand held battery powered vegetation trimmer according to claim 1 characterised in that the trimmer comprises a support guide.
 3. A hand held battery powered vegetation trimmer according to either of claims 1 or 2 characterised in that the cutting line has a 30.5 cm cutting swath.
 4. A hand held battery powered vegetation trimmer according to claim 1 characterised in that the reduction ratio of the reduction gear stage is between a 2:1 reduction and a 4:1 reduction.
 5. A battery powered vegetation trimmer according to claim 1 characterised in that the reduction gear stage comprises a pair of intermeshing gears (22, 24).
 6. A battery powered vegetation trimmer according to claim 1 characterised in that the reduction gear stage comprises an epicyclic, parallel axis or bevel gear arrangement.
 7. A battery powered vegetation trimmer according to claim 1 characterised in that the reduction gear stage comprises a belt drive arrangement.
 8. A battery powered vegetation trimmer according to claim 1 characterised in that the speed of rotation of the line support structure (28) when there is no cutting load on the trimmer is between 5,000 and 9,000 rpm.
 9. A battery powered vegetation trimmer according to claim 8 characterised in that the speed of rotation of the line support structure (28) when there is no cutting load on the trimmer is between 6,000 and 9000 rpm.
 10. A battery powered vegetation trimmer according to claim 9 characterised in that the speed of rotation of the line support structure (28) when there is no cutting load on the trimmer is between 7,000 and 8,500 rpm.
 11. A battery powered vegetation trimmer according to claim 1 characterised in that the speed of rotation of the motor (12) when there is no cutting load in the trimmer is between 10,000 and 28,000 rpm.
 12. A battery powered vegetation trimmer according to claim 11 characterised in that the speed of rotation of the motor (12) when there is no cutting load on the trimmer is between 13,000 and 28,000 rpm.
 13. A battery powered vegetation trimmer according to claim 12 characterised in that the speed of rotation of the motor (12) when there is no cutting load on the trimmer is between 19,000 and 23,000 rpm.
 14. A battery powered vegetation trimmer according to claim 1 characterized in that the battery pack includes at least one rechargeable Nickel/Cadmium or Lead/Acid battery.
 15. A vegetation trimmer according to claim 1 characterised in that the battery pack (4) is releasably attachable to the handle portion (2).
 16. A vegetation trimmer according to claim 1 characterised in that the electric motor (12) is housed in the cutting head (18).
 17. A battery powered vegetation trimmer according to claim 1 characterised in that the weight of the electric motor (12) is less than 1 kg.
 18. A battery powered vegetation trimmer according to claim 17 characterised in that the weight of the electric motor (12) is less than 0.5 Kg. 